The use of any practice that reduces or eliminates pathogen populations or creates an environment within the planting that is less conducive to disease development must be employed. It is important to remember that many diseases, such as viruses and orange rust, cannot be controlled with fungicides at the present time. Thus, cultural practices are the major means for their control. When fungicides are used, certain cultural practices, such as maintaining narrow row width or thinning canes to open the plant canopy, will greatly increase the efficacy of the fungicide program by allowing better spray penetration and promoting faster drying of susceptible plant parts. The practices presented here should be carefully considered and implemented whenever possible in the disease-management program.
Use Virus-Indexed Planting Stock
Always start the planting with "healthy" virus-indexed nursery stock from a reputable nursery. The importance of establishing plantings with virus-indexed nursery stock cannot be overemphasized, since the selection of planting stock and planting site are the only actions a grower can take to prevent or delay the introduction of most virus diseases. Plants obtained from an unknown source or neighbor may be contaminated with a number of pathogens that experienced nurserymen work hard to control.
Site Selection
Proper site selection is critical to developing a successful disease-management program. Establishing a planting on a site that is conducive to disease development is a critical error. Such plantings may be doomed to failure, regardless of the amount of pesticide a grower uses. Considerations that should play a major role in the disease-management program include the following:
Soil Drainage - Soil drainage (both surface and internal drainage) is an extremely important consideration when selecting a planting site. Planting brambles on poorly or even marginally drained sites is a poor management decision. For example, poorly drained soils that are frequently saturated with water are highly conducive to the development of Phytophthora root rot, especially in red raspberries. Even in the absence of plant disease, wet soils are not conducive to good plant growth and productivity.
Any practice, such as tiling, ditching, or planting on raised beds (about 12 inches high), that aids in removing excessive water from the root zone will increase the efficacy of the disease-management program. Once the planting is established, it is difficult, if not impossible to improve soil drainage.
Site Exposure (Air Circulation and Sunlight Exposure) - Avoid sites that do not have full exposure to sunlight, such as shaded areas near woods or buildings. In addition, sites with poor air circulation that tend to accumulate still, damp air should be avoided. Planting rows in the direction of the prevailing winds will help to promote good air circulation and rapid plant drying.
The primary reason for these considerations is to promote faster drying of canes, foliage, and fruit. Most plant pathogenic fungi and bacteria require water on plant surfaces in order to penetrate and infect the plant. Any practice that reduces wetness duration (speeds drying time) of susceptible plant parts is beneficial to the disease-management program.
Previous Cropping History - Avoid establishing plantings on sites that have a previous history of problems with Verticillium wilt, either in previous plantings of brambles or other susceptible crops. In general, it is not a good practice to plant brambles immediately after solanaceous or other Verticillium-susceptible crops. These include tomato, potato, peppers, eggplant, melons, strawberries, and other related crops. Certain common weeds such as black nightshade, redroot pigweed, lamb's-quarters, and horsenettle, will also support growth of the Verticillium fungus, and fields with a high population of these weeds also should be avoided. This is particularly important if Verticillium wilt is known to have been a problem on the site in the past. The fungus that causes Verticillium wilt can survive in soil for very long periods of time (at least 14 years in California). If a site is known to have had a problem with Verticillium wilt within the last five to 10 years, it should probably not be used for establishing plantings of Verticillium-susceptible bramble varieties unless the soil is fumigated before planting.
Most brambles are susceptible to Verticillium wilt, and when the disease becomes established within the planting, it can be devastating. Good resistance to Verticillium wilt in the varieties currently grown in the Midwest is not available. In general, black raspberries are significantly more susceptible than red raspberries, and (in general) blackberries are the least susceptible.
If the site has a previous history of Phytophthora root rot, either in previous bramble plantings or other perennial fruit crops, it should probably be avoided. Phytophthora spp. (like Verticillium) can also survive in soil for extended periods of time. It is important to remember that Phytophthora root rot is usually associated with poorly drained (wet) sites, and improving soil drainage is one of the principal means of control.
If nematodes have been a problem in previous crops or nematodes are suspected to be a problem on the site, a soil analysis to determine the presence of harmful nematodes should be conducted. Nematodes are most likely to be a problem on lighter (sandy) soils. Nematode sampling kits and instructions on taking samples can be obtained from your county office of Ohio State University Extension. Infested sites may be treated with an approved nematicide before planting, if sampling indicates a need to do so.
Proximity (Closeness) to Established Bramble Plantings and Wild Bramble Plants - Ideally a new planting should be isolated as far as possible from old established plantings or wild bramble plants that serve as reservoirs for diseases and other pests. The benefits of using virus-indexed plants to establish a new field are greatly reduced if the fence row around the planting or a woods directly adjacent to the planting contains wild, virus-infected, or orange rust-infected plants. The same is true if a new planting is established next to an old planting that has disease problems.
Currently, no information is available on exactly how far away from an established planting or weeded area is "far enough." The distance of 600 to 1,000 feet is used commonly in Extension literature; similarly, the New York State virus certification program requires that nurseries in the program use a minimum distance of 1,000 ft. It is probably safe to say "the farther the better."
Crop Rotation and Soil Fumigation (Replanting Brambles)
When replanting brambles on the same site, the practices of crop rotation and/or soil fumigation must be considered. Due to the build up and persistence of soilborne plant pathogens, replanting brambles on the same site is not recommended without the use of crop rotation and/or soil fumigation.
Crop Rotation - At present, data describing how long a rotation is required before replanting brambles on the same site is not available. In fact, this requirement is probably different for every different planting site. Once again, the safest recommendation is probably "the longer, the better," particularly if the site has a history of soilborne diseases.
However, all soilborne diseases are not the same. For instance, Verticillium wilt generally becomes a problem only after populations of the Verticillium fungus slowly build up to high levels. Thus, if no brambles or other susceptible crops are grown for a suitable period (probably at least five years), the fungus population declines, and brambles can be reintroduced and grown for a number of years before the population builds back up to damaging levels. This same principle is true for many harmful nematodes, but it is not true for Phytophthora root rot. The Phytophthora fungi reproduce very rapidly under proper environmental conditions, so even a low population can rebuild to damaging levels within one or two seasons.
Soil Fumigation - If done properly, soil fumigation can aid greatly in control of certain soilborne diseases. It is important to remember that soil fumigants usually reduce the populations of disease-causing fungi and nematodes, but seldom eliminate them. Therefore, diseases that respond well to crop rotation (Verticillium wilt, nematodes) also usually respond to fumigation. In contrast, fumigation is unlikely to provide control of Phytophthora root rot for more than one or two years, for the same reason that rotation is ineffective. From a disease-control standpoint, fumigation might be thought of as a "fast" form of crop rotation, and best results might be obtained when the fumigant is applied after a short (one- or two-year) rotation has already been implemented to reduce pathogen populations. Where soil fumigation is practiced, care should be taken not to reintroduce disease-causing organisms in infested soil from other parts of the farm.
Neither soil fumigation nor crop rotation will eliminate all problems associated with soilborne diseases. These techniques should always be integrated with other control measures, such as the choice of resistant or partially-resistant varieties, improvements in drainage, etc. Where other control measures cannot be used (for instance, the site cannot be adequately drained), it is not advisable to replant brambles.
Avoid Excessive Fertilization
Fertility should be based on soil and foliar analysis. The use of excessive fertilizer, especially nitrogen, should be avoided. Sufficient fertility is essential to produce a crop, but excess nitrogen can result in dense foliage that increases drying time in the plant canopy (stays wet longer).
Control Weeds in and Around the Planting
Good weed control within and between the rows is essential. From a disease-control standpoint, weeds in the planting prevent air circulation and result in fruit and foliage staying wet for longer periods. For this reason, most diseases caused by fungi are generally more serious in plantings with poor weed control than in those with good weed control. Furthermore, some disease-causing organisms (Verticillium wilt fungus, crumbly berry virus) can build up on certain broadleaf weeds in the planting. Any practice that opens up the canopy in order to increase air circulation and reduce drying time of fruit, foliage, and young canes is generally beneficial to disease control.
Controlling wild brambles (which are weeds) near the planting is also important because they can serve as a reservoir for several important diseases and insect pests.
Sanitation (Removal of Overwintering Inoculum)
The fungi that cause anthracnose, cane blight, spur blight, Botrytis fruit rot, cane and leaf rust, and several other important diseases overwinter within the planting on canes infected during the previous year. Pruning out all infected old fruited canes and any diseased new canes (primocanes) and removing them from the planting breaks the disease cycle and greatly reduces the inoculum. All infected pruning waste should be removed from the field and destroyed. If you are attempting to minimize fungicide use, good sanitation (removing infected old fruited canes) is critical. If old fruited canes are not infected, there is no reason to remove them from the field. If diseases are not present in the planting, the old canes can be placed between the rows and chopped with a flail mower to speed decomposition. Traditionally, we have recommended removing old canes immediately after harvest; however, recent observations suggest that removing old canes too early after harvest increases the plants' susceptibility to winter injury. Many researchers are now suggesting that the old canes be removed in late fall or winter after the canes become dormant. Fruited canes should definitely be removed before new growth starts in the spring.
For fall-bearing raspberries such as Heritage, all canes are cut off each year. Removing all infected cut canes from the planting will aid the disease-management program. If old canes are not removed from the field, they should be chopped in place as quickly as possible with a flail mower to speed decomposition as rapidly as possible before new canes emerge.
Plant Population and Canopy Management
Any practice that alters the density of the plant canopy and increases air circulation and exposure to sunlight is generally beneficial to disease control. Optimizing between-row and within-row spacings and maintaining interplant spacings through judicious cane thinning throughout the life of the planting are desirable. Ideally, rows should not be more than two feet wide and should contain about three or four canes per square foot. Control of plant vigor, particularly through avoidance of high levels of nitrogenous fertilizers and careful use of cane-vigor control techniques, can greatly aid in improving the canopy density. Specialized trellis designs for various Rubus spp. can further improve air circulation and increase exposure to sunlight, as well as increase harvest efficiency. Trickle irrigation (as opposed to overhead sprinkler irrigation) greatly reduces the wetting of foliage and fruit and the risk of splash dispersal of several important fungal pathogens.
Removing young fruiting shoots (before they exceed four inches in length) from the lower portions of canes (approximately the lower 20 inches) will remove fruit that might become soiled. This practice also removes shoots that disproportionately contribute to shading and poor air circulation in the canopy.
For information on methods for cane-vigor control, trellis designs, and optimum spacing requirements, the book Bramble Production Guide is very useful; see pages 41 to 52. This is a very comprehensive resource book for most phases of bramble production.
Inspect the Planting Frequently and Rogue Out (Remove) Diseased Plants
Plants showing symptoms of virus diseases or orange rust must be removed and destroyed immediately (including the roots) whenever they are found. Such plants may bear fruit, but it will be of poor quality, and the longer these plants remain, the greater the chances that other plants will become infected. Viruses and the orange-rust fungus are systemic and can move to adjacent plants by means of root grafts. Because of this possibility, use a flag to mark the locations where diseased plants are removed so the adjacent plants can be checked frequently for new symptoms.
For orange rust (not a problem on red raspberry), it is particularly important to inspect the planting early in the growing season. The planting should also be inspected on a routine basis (at least once a week) from the time growth starts in the spring through harvest. New leaves on early spring growth of orange rust-infected plants are chlorotic (yellowish), and shoots are bunched and spindly. They are easy to identify at this time in the spring. It is important that infected plants be identified and removed prior to the development of the orange rust pustules on the leaves. If these pustules are allowed to develop, they will produce large numbers of aeciospores that will spread the disease. If infected plants are not removed early in the spring, they become more difficult to identify later in the growing season.
Early spring is also a good time to inspect for virus diseases. Symptom expression of many viruses is more obvious during cool growing conditions. The higher temperatures of mid to late summer often mask virus symptoms, making infected plants difficult, if not impossible, to detect.
Adjust Production Practices to Prevent Plant Injury and Infection
Any practice that minimizes unnecessary physical damage to the plant is beneficial to the disease-management program. Many plant pathogens take advantage of wounds in order to penetrate and infect the plant. Cane blight and bacterial crown gall are two important pathogens of brambles that enter the plant almost exclusively through wounds. The use of sharp pruning tools will help minimize damage to canes during pruning operations. Prune only when necessary (avoid cosmetic pruning of primocanes) and avoid pruning during periods when plants are wet or immediately before wet weather is forecast. Most plant pathogens require water on the surface of plant tissues before they can penetrate the plant. Providing proper cane support through trellising or otherwise tying the canes will aid greatly in avoiding abrasions from sharp spines and wind whipping of plants during windy conditions. Proper spacing between rows and the use of proper-sized equipment will also prevent plant damage.
Proper Harvest, Handling, and Storage of Fruit
Proper harvesting and storage methods are critical components of the disease-management program. It is of little value to produce high-quality fruit in the field if it is bruised or crushed during harvest or permitted to rot during storage. Raspberry and blackberry fruit are very perishable. Even under the best conditions, these tender fruits are extremely susceptible to physical damage and post-harvest rots. The practices listed here need to be considered well in advance of initiating the harvest. The proper implementation of these practices will aid greatly in providing your customers with the best quality fruit possible.